#include "quakedef.h" #include "iweb.h" #include "netinc.h" #include "fs.h" #if defined(WEBCLIENT) #ifndef NPFTE static struct dl_download *activedownloads; #endif #if defined(FTE_TARGET_WEB) #include "web/ftejslib.h" vfsfile_t *FSWEB_OpenTempHandle(int f); static void DL_Cancel(struct dl_download *dl) { //FIXME: clear out the callbacks somehow dl->ctx = NULL; } static void DL_OnLoad(void *c, int buf) { //also fires from 404s. struct dl_download *dl = c; vfsfile_t *tempfile = FSWEB_OpenTempHandle(buf); //make sure the file is 'open'. if (!dl->file) { if (*dl->localname) { FS_CreatePath(dl->localname, dl->fsroot); dl->file = FS_OpenVFS(dl->localname, "w+b", dl->fsroot); } else { dl->file = tempfile; tempfile = NULL; } } if (dl->file) { dl->status = DL_FINISHED; if (tempfile) { qofs_t datasize = VFS_GETLEN(tempfile); char *data = malloc(datasize); //grab a temp buffer so we can do the entire file at once... if (!data) dl->status = DL_FAILED; else { VFS_READ(tempfile, data, datasize); VFS_WRITE(dl->file, data, datasize); if (dl->file->seekstyle < SS_PIPE) VFS_SEEK(dl->file, 0); free(data); } } } else dl->status = DL_FAILED; if (tempfile) VFS_CLOSE(tempfile); dl->replycode = 200; } static void DL_OnError(void *c, int ecode) { struct dl_download *dl = c; //fires from cross-domain blocks, tls errors, etc. //anything which doesn't yield an http response (404 is NOT an error as far as js is aware). dl->replycode = ecode; Con_Printf(CON_WARNING"dl error(%i): %s\n", ecode, dl->url); dl->status = DL_FAILED; } static void DL_OnProgress(void *c, int position, int totalsize) { struct dl_download *dl = c; dl->completed = position; dl->totalsize = totalsize; } //this becomes a poll function. the main thread will call this once a frame or so. qboolean DL_Decide(struct dl_download *dl) { const char *url = dl->redir; if (!*url) url = dl->url; if (dl->postdata) { //not supported... DL_Cancel(dl); return false; //safe to destroy it now } if (dl->ctx) { if (dl->status == DL_FINISHED) return false; if (dl->status == DL_FAILED) { DL_Cancel(dl); return false; } } else if (dl->status == DL_PENDING) { dl->status = DL_ACTIVE; dl->abort = DL_Cancel; dl->ctx = dl; emscriptenfte_async_wget_data2(url, dl, DL_OnLoad, DL_OnError, DL_OnProgress); } else if (dl->status == DL_ACTIVE) { //canceled? dl->status = DL_FAILED; return false; } return true; } #elif defined(NACL) #include #include #include #include #include #include #include #include #include #include #include extern PPB_Core *ppb_core; extern PPB_URLRequestInfo *urlrequestinfo; extern PPB_URLLoader *urlloader; extern PP_Instance pp_instance; extern PPB_Var *ppb_var_interface; struct nacl_dl { char buffer[65536]; PP_Resource req; }; static void readfinished(void* user_data, int32_t result) { struct dl_download *f = user_data; struct nacl_dl *ctx = f->ctx; struct PP_CompletionCallback ccb = {readfinished, f, PP_COMPLETIONCALLBACK_FLAG_NONE}; //trying to clean up if (!ctx) return; // Sys_Printf("lastresult: %i\n", result); if (result == PP_OK) { // Sys_Printf("%s completed\n", f->url); ppb_core->ReleaseResource(ctx->req); ctx->req = 0; f->status = DL_FINISHED; return; } for (; result > 0; result = urlloader->ReadResponseBody(ctx->req, ctx->buffer, sizeof(ctx->buffer), ccb)) { //make sure the file is 'open'. if (!f->file) { if (*f->localname) { FS_CreatePath(f->localname, dl->fsroot); f->file = FS_OpenVFS(f->localname, "w+b", dl->fsroot); } else f->file = FS_OpenTemp(); } // Sys_Printf("write: %i\n", result); VFS_WRITE(f->file, ctx->buffer, result); f->completed += result; } // Sys_Printf("result: %i\n", result); if (result != PP_OK_COMPLETIONPENDING) { Sys_Printf("file %s failed or something\n", f->url); ppb_core->ReleaseResource(ctx->req); ctx->req = 0; f->status = DL_FAILED; } } //urloader->open completed static void dlstarted(void* user_data, int32_t result) { struct dl_download *f = user_data; struct nacl_dl *ctx = f->ctx; struct PP_CompletionCallback ccb = {readfinished, f, PP_COMPLETIONCALLBACK_FLAG_NONE}; readfinished(user_data, urlloader->ReadResponseBody(ctx->req, ctx->buffer, sizeof(ctx->buffer), ccb)); } static void nadl_cleanup_cb(void* user_data, int32_t result) { struct nacl_dl *ctx = user_data; if (ctx->req) ppb_core->ReleaseResource(ctx->req); free(ctx); } void NADL_Cleanup(struct dl_download *dl) { struct nacl_dl *ctx = dl->ctx; //we can't free the ctx memory etc, in case the browser still has requests pending on it before it handles our close. //so set up a callback to do it later dl->ctx = NULL; //orphan struct PP_CompletionCallback ccb = {nadl_cleanup_cb, ctx, PP_COMPLETIONCALLBACK_FLAG_NONE}; ppb_core->CallOnMainThread(1000, ccb, 0); } qboolean DL_Decide(struct dl_download *dl) { const char *url = dl->redir; struct nacl_dl *ctx; if (!*url) url = dl->url; if (dl->postdata) { NADL_Cleanup(dl); return false; //safe to destroy it now } if (dl->ctx) { if (dl->status == DL_FAILED || dl->status == DL_FINISHED) { NADL_Cleanup(dl); return false; //safe to destroy it now } } else { PP_Resource dlri; dl->status = DL_ACTIVE; dl->abort = NADL_Cleanup; dl->ctx = ctx = Z_Malloc(sizeof(*ctx)); /*everything goes via nacl, so we might as well just init that here*/ ctx->req = urlloader->Create(pp_instance); dlri = urlrequestinfo->Create(pp_instance); urlrequestinfo->SetProperty(dlri, PP_URLREQUESTPROPERTY_ALLOWCROSSORIGINREQUESTS, ppb_var_interface->VarFromUtf8(url, strlen(url))); urlrequestinfo->SetProperty(dlri, PP_URLREQUESTPROPERTY_URL, ppb_var_interface->VarFromUtf8(url, strlen(url))); struct PP_CompletionCallback ccb = {dlstarted, dl, PP_COMPLETIONCALLBACK_FLAG_NONE}; urlloader->Open(ctx->req, dlri, ccb); ppb_core->ReleaseResource(dlri); } return true; } #else qboolean DL_Decide(struct dl_download *dl); /* This file does one thing. Connects to servers and grabs the specified file. It doesn't do any uploading whatsoever. Live with it. It doesn't use persistant connections. */ #define COOKIECOOKIECOOKIE #ifdef COOKIECOOKIECOOKIE typedef struct cookie_s { struct cookie_s *next; char *domain; int secure; char *name; char *value; } cookie_t; cookie_t *cookies; #ifdef NPFTE #define Z_Malloc malloc #define Z_Free free #endif //set a specific cookie. void Cookie_Feed(char *domain, int secure, char *name, char *value) { cookie_t **link, *c; Sys_LockMutex(com_resourcemutex); for(link = &cookies; (c=*link)!=NULL; link = &(*link)->next) { if (!strcmp(c->domain, domain) && c->secure == secure && !strcmp(c->name, name)) break; } //delete it, if it exists, so we can create it anew. if (c) { *link = c->next; Z_Free(c); } if (value && *value) { // Con_Printf("Setting cookie http%s://%s/ %s=%s\n", secure?"s":"", domain, name, value); c = Z_Malloc(sizeof(*c) + strlen(domain) + strlen(name) + strlen(value) + 3); c->domain = (char*)(c+1); strcpy(c->domain, domain); c->secure = secure; c->name = c->domain+strlen(c->domain)+1; strcpy(c->name, name); c->value = c->name+strlen(c->name)+1; strcpy(c->value, value); c->next = cookies; cookies = c; } else { // Con_Printf("Deleted cookie http%s://%s/ %s\n", secure?"s":"", domain, name); } Sys_UnlockMutex(com_resourcemutex); } //just removes all the cookies it can. void Cookie_Monster(void) { cookie_t *c; while (cookies) { c = cookies; cookies = c->next; Z_Free(c); } } //parses Set-Cookie: THISPARTONLY\r\n //we don't support: //domain) we don't have a list of public suffixes, like .co.uk, and thus cannot safely block dangerous super-cookies. thus we require the exact same host each time //path) I'm going to call this an optimisation feature and not bother with it... hopefully there won't be too many sites that have sub-paths or third-party stuff... gah. //httponly) irrelevant until we support javascript... which we don't. //secure) assumed to be true. https:// vs http:// are thus completely independant. sorry. //expires) gah, parsing time values sucks! plus we don't have persistent storage. All cookies are session cookies. void Cookie_Parse(char *domain, int secure, char *line, char *end) { char *e; while (*line == ' ' && line < end) line++; for (e = line; e < end; e++) if (*e == ';') end = e; for (e = line; e < end; e++) if (*e == '=') break; *e = 0; *end = 0; Cookie_Feed(domain, secure, line, e+1); } //outputs a complete http line: Cookie: a=v1; b=v2\r\n void Cookie_Regurgitate(char *domain, int secure, char *buffer, size_t buffersize) { qboolean hascookies = false; cookie_t *c; // char *l = buffer; buffersize -= 3; //\r\n\0 *buffer = 0; Sys_LockMutex(com_resourcemutex); for (c = cookies; c; c = c->next) { if (!strcmp(c->domain, domain) && c->secure == secure) { int nlen,vlen; if (!hascookies) { if (buffersize < 8) break; strcpy(buffer, "Cookie: "); buffersize -= 8; hascookies=true; } else { if (buffersize < 2) break; strcpy(buffer, "; "); buffersize -= 2; } buffer += strlen(buffer); nlen = strlen(c->name); vlen = strlen(c->value); if (buffersize < nlen+1+vlen) break; memcpy(buffer, c->name, nlen); buffer += nlen; *buffer++ = '='; memcpy(buffer, c->value, vlen); buffer += vlen; } } Sys_UnlockMutex(com_resourcemutex); if (hascookies) strcpy(buffer, "\r\n"); else *buffer = 0; // if (*l) // Con_Printf("Sending cookie(s) to http%s://%s/ %s\n", secure?"s":"", domain, l); } #endif struct http_dl_ctx_s { // struct dl_download *dlctx; #ifndef NPFTE vfsfile_t *stream; SOCKET sock; //so we can wait on it when multithreaded. #else SOCKET sock; //FIXME: support https. #endif char *buffer; char server[128]; qboolean secure; size_t bufferused; size_t bufferlen; size_t totalreceived; //useful when we're just dumping to a file. struct vfsfile_s *file; //if gzipping, this is a temporary file. we'll write to the real file from this after the transfer is complete. qboolean gzip; qboolean chunking; size_t chunksize; size_t chunked; enum {HC_REQUESTING, HC_GETTINGHEADER, HC_GETTING} state; size_t contentlength; }; void HTTP_Cleanup(struct dl_download *dl) { struct http_dl_ctx_s *con = dl->ctx; dl->ctx = NULL; #ifndef NPFTE if (con->stream) VFS_CLOSE(con->stream); con->stream = NULL; #else if (con->sock != INVALID_SOCKET) closesocket(con->sock); con->sock = INVALID_SOCKET; #endif free(con->buffer); free(con); dl->abort = NULL; dl->status = DL_PENDING; dl->completed = 0; dl->totalsize = 0; } static void ExpandBuffer(struct http_dl_ctx_s *con, int quant) { int newlen; newlen = con->bufferlen + quant; con->buffer = realloc(con->buffer, newlen); con->bufferlen = newlen; } static int VFSError_To_HTTP(int vfserr) { switch(vfserr) { case VFS_ERROR_TRYLATER: return 0; default: case VFS_ERROR_UNSPECIFIED: return 0; //don't know, no reason given. case VFS_ERROR_REFUSED: return HTTP_REFUSED; case VFS_ERROR_EOF: return HTTP_EOF; case VFS_ERROR_DNSFAILURE: return HTTP_DNSFAILURE; case VFS_ERROR_WRONGCERT: return HTTP_MITM; case VFS_ERROR_UNTRUSTED: return HTTP_UNTRUSTED; } } #ifdef HAVE_EPOLL #include #endif static qboolean HTTP_DL_Work(struct dl_download *dl) { struct http_dl_ctx_s *con = dl->ctx; char buffer[256]; char Location[4096]; char mimetype[256]; char *nl; char *msg; int ammount; qboolean transfercomplete = false; #ifdef MULTITHREAD //if we're running in a thread, wait for some actual activity instead of busylooping like an moron. if (dl->threadctx) { #ifdef HAVE_EPOLL struct pollfd fd; fd.fd = con->sock; fd.events = POLLIN; fd.revents = 0; if (con->state == HC_REQUESTING) fd.events |= POLLOUT; poll(&fd, 1, 0.1*1000); //wake up when we can read OR write //note that https should wake up more often, but we don't want to wake up because we *can* write when we're reading without any need to write. #else struct timeval timeout; fd_set rdset, wrset; FD_ZERO(&wrset); FD_ZERO(&rdset); FD_SET(con->sock, &wrset); // network socket FD_SET(con->sock, &rdset); // network socket timeout.tv_sec = 0; timeout.tv_usec = 0.1*1000*1000; if (con->state == HC_REQUESTING) select(con->sock+1, &rdset, &wrset, NULL, &timeout); //wake up when we can read OR write else select(con->sock+1, &rdset, NULL, NULL, &timeout); //wake when we can read. //note that https should wake up more often, but we don't want to wake up because we *can* write when we're reading without any need to write. #endif } #endif switch(con->state) { case HC_REQUESTING: #ifndef NPFTE ammount = VFS_WRITE(con->stream, con->buffer, con->bufferused); if (!ammount) return true; if (ammount < 0) { dl->status = DL_FAILED; dl->replycode = VFSError_To_HTTP(ammount); return false; } #else ammount = send(con->sock, con->buffer, con->bufferused, 0); if (!ammount) return false; if (ammount < 0) { if (neterrno() != NET_EWOULDBLOCK) return false; return true; } #endif con->bufferused -= ammount; memmove(con->buffer, con->buffer+ammount, con->bufferused); if (!con->bufferused) //that's it, all sent. con->state = HC_GETTINGHEADER; break; case HC_GETTINGHEADER: if (con->bufferlen - con->bufferused < 1530) ExpandBuffer(con, 1530); #ifndef NPFTE ammount = VFS_READ(con->stream, con->buffer+con->bufferused, con->bufferlen-con->bufferused-15); if (!ammount) return true; if (ammount < 0) { dl->status = DL_FAILED; dl->replycode = VFSError_To_HTTP(ammount); return false; } #else ammount = recv(con->sock, con->buffer+con->bufferused, con->bufferlen-con->bufferused-15, 0); if (!ammount) return false; if (ammount < 0) { if (neterrno() != NET_EWOULDBLOCK) return false; return true; } #endif con->bufferused+=ammount; con->buffer[con->bufferused] = '\0'; //have we got the entire thing yet? msg = con->buffer; con->chunking = false; con->contentlength = -1; //means unspecified con->gzip = false; *mimetype = 0; *Location = 0; if (strnicmp(msg, "HTTP/", 5)) { //pre version 1 (lame servers). no response headers at all. con->state = HC_GETTING; dl->status = DL_ACTIVE; dl->replycode = 200; } else { //check if the headers are complete or not qboolean hcomplete = false; while(*msg) { if (*msg == '\n') { if (msg[1] == '\n') { //tut tut, not '\r'? that's not really allowed... msg+=2; hcomplete = true; break; } if (msg[1] == '\r' && msg[2] == '\n') { msg+=3; hcomplete = true; break; } msg++; } while (*msg == ' ' || *msg == '\t') msg++; nl = strchr(msg, '\n'); if (!nl) break;//not complete, don't bother trying to parse it. msg = nl; } if (!hcomplete) break;//headers not complete. break out of switch //okay, they're complete, woot. we need to actually go through the headers now msg = con->buffer; while(*msg) { if (*msg == '\n') { if (msg[1] == '\n') { //tut tut, not '\r'? that's not really allowed... msg+=2; break; } if (msg[1] == '\r' && msg[2] == '\n') { msg+=3; break; } msg++; } while (*msg == ' ' || *msg == '\t') msg++; nl = strchr(msg, '\n'); if (!nl) break;//not complete, don't bother trying to parse it. if (!strnicmp(msg, "Content-Length: ", 16)) con->contentlength = atoi(msg+16); else if (!strnicmp(msg, "Content-Type:", 13)) { *nl = '\0'; //don't worry too much about truncation. its not like we can really do much with fancy mime types anyway. COM_TrimString(msg+13, mimetype, sizeof(mimetype)); *nl = '\n'; } else if (!strnicmp(msg, "Location: ", 10)) { *nl = '\0'; if (!COM_TrimString(msg+10, Location, sizeof(Location))) { Con_Printf("HTTP Redirect: location too long\n"); dl->status = DL_FAILED; return false; } *nl = '\n'; } else if (!strnicmp(msg, "Content-Encoding: ", 18)) { char *chunk = strstr(msg, "gzip"); if (chunk < nl) con->gzip = true; } else if (!strnicmp(msg, "Transfer-Encoding: ", 19)) { char *chunk = strstr(msg, "chunked"); if (chunk < nl) con->chunking = true; } #ifdef COOKIECOOKIECOOKIE else if (!strnicmp(msg, "Set-Cookie: ", 12)) { Cookie_Parse(con->server, con->secure, msg+12, nl); } #endif msg = nl; } if (!hcomplete) break;//headers not complete. break out of switch ammount = msg - con->buffer; msg = COM_ParseOut(con->buffer, buffer, sizeof(buffer)); msg = COM_ParseOut(msg, buffer, sizeof(buffer)); dl->replycode = atoi(buffer); if (!stricmp(buffer, "100")) { //http/1.1 servers can give this. We ignore it. con->bufferused -= ammount; memmove(con->buffer, con->buffer+ammount, con->bufferused); return true; } if (!stricmp(buffer, "301") || !stricmp(buffer, "302") || !stricmp(buffer, "303")) { char trimmed[256]; nl = strchr(msg, '\n'); if (nl) *nl = '\0'; COM_TrimString(msg, trimmed, sizeof(trimmed)); Con_Printf("%s: %s %s (%s)\n", dl->url, buffer, trimmed, Location); if (!*Location) { Con_Printf("Server redirected to null location\n"); return false; } else { if (dl->redircount++ > 10) { Con_Printf("HTTP: Recursive redirects\n"); return false; } HTTP_Cleanup(dl); if (*Location == '/') { char *cur = *dl->redir?dl->redir:dl->url; char *curserver = cur; char *curpath; /*same server+protocol*/ if (!strncmp(curserver, "http://", 7)) curserver += 7; curpath = strchr(curserver, '/'); if (!curpath) curpath = curserver + strlen(curserver); if (cur == dl->redir) *curpath = 0; else Q_strncpyz(dl->redir, cur, (curpath-cur) + 1); Q_strncatz(dl->redir, Location, sizeof(dl->redir)); } else Q_strncpyz(dl->redir, Location, sizeof(dl->redir)); dl->poll = DL_Decide; dl->status = DL_PENDING; } return true; } if (stricmp(buffer, "200") && stricmp(buffer, "201") && stricmp(buffer, "202")) { nl = strchr(msg, '\n'); if (!nl) return false; //eh? if (nl>msg&&nl[-1] == '\r') nl--; *nl = '\0'; Con_Printf("%s: %s%s\n", dl->url, buffer, msg); return false; //something went wrong. } if (con->contentlength != -1 && con->contentlength > dl->sizelimit) { dl->replycode = 413; //413 Payload Too Large Con_Printf("HTTP: request exceeds size limit\n"); return false; //something went wrong. } con->bufferused -= ammount; dl->totalsize = con->contentlength; memmove(con->buffer, con->buffer+ammount, con->bufferused); } if (dl->notifystarted) { if (!dl->notifystarted(dl, *mimetype?mimetype:NULL)) { dl->notifycomplete = NULL; dl->status = DL_FAILED; return false; } } if (!dl->file) { #ifndef NPFTE if (*dl->localname) { FS_CreatePath(dl->localname, dl->fsroot); dl->file = FS_OpenVFS(dl->localname, "w+b", dl->fsroot); } else dl->file = FS_OpenTemp(); #endif if (!dl->file) { if (*dl->localname) Con_Printf("HTTP: Couldn't open file \"%s\"\n", dl->localname); else Con_Printf("HTTP: Couldn't open temporary file\n"); dl->status = DL_FAILED; return false; } } if (con->gzip) { #ifdef AVAIL_GZDEC con->file = FS_GZ_WriteFilter(dl->file, false, false); #else Con_Printf("HTTP: no support for gzipped files \"%s\"\n", dl->localname); dl->status = DL_FAILED; return false; #endif } else con->file = dl->file; con->state = HC_GETTING; dl->status = DL_ACTIVE; goto firstread; //oh noes! an evil goto! this is the easiest way to avoid the 'return' here when no data follows a 0-byte download case HC_GETTING: if (con->bufferlen - con->bufferused < 1530) ExpandBuffer(con, 1530); #ifndef NPFTE ammount = VFS_READ(con->stream, con->buffer+con->bufferused, con->bufferlen-con->bufferused-1); if (ammount == 0) return true; //no data yet else if (ammount < 0) ammount = 0; //error (EOF?) #else ammount = recv(con->sock, con->buffer+con->bufferused, con->bufferlen-con->bufferused-1, 0); if (ammount < 0) { if (neterrno() != NET_EWOULDBLOCK) return false; return true; } #endif con->bufferused+=ammount; firstread: if (con->chunking) { //9\r\n //chunkdata\r\n //(etc) int trim; char *nl; con->buffer[con->bufferused] = '\0'; for(;;) { //work out as we go. if (con->chunksize)//we are trying to parse a chunk. { trim = con->bufferused - con->chunked; if (trim > con->chunksize) trim = con->chunksize; //don't go into the next size field. if (con->chunksize == trim) { //we need to find the next \n and trim it. nl = strchr(con->buffer+con->chunked+trim, '\n'); if (!nl) break; nl++; con->chunksize = 0; con->chunked += trim; //chop out the \r\n from the stream trim = nl - (con->buffer+con->chunked); memmove(con->buffer + con->chunked, nl, con->buffer+con->bufferused-nl+1); con->bufferused -= trim; } else { con->chunksize -= trim; con->chunked += trim; } if (!(con->bufferused - con->chunked)) break; } else { size_t nextsize; nl = strchr(con->buffer+con->chunked, '\n'); if (!nl) break; nextsize = strtoul(con->buffer+con->chunked, NULL, 16); //it's hex. nl++; if (!nextsize) //eof. make sure we skip its \n too { nl = strchr(nl, '\n'); if (!nl) break; transfercomplete = true; } con->chunksize = nextsize; trim = nl - (con->buffer+con->chunked); memmove(con->buffer + con->chunked, nl, con->buffer+con->bufferused-nl+1); con->bufferused -= trim; } } con->totalreceived+=con->chunked; if (con->totalreceived > dl->sizelimit) { dl->replycode = 413; //413 Payload Too Large Con_Printf("HTTP: request exceeds size limit\n"); return false; //something went wrong. } if (con->file && con->chunked) //we've got a chunk in the buffer { //write it if (VFS_WRITE(con->file, con->buffer, con->chunked) != con->chunked) { Con_Printf("Write error whilst downloading %s\nDisk full?\n", dl->localname); return false; } //and move the unparsed chunk to the front. con->bufferused -= con->chunked; memmove(con->buffer, con->buffer+con->chunked, con->bufferused); con->chunked = 0; } } else { int chunk = con->bufferused; if (con->contentlength != -1 && chunk > con->contentlength-con->totalreceived) chunk = con->contentlength-con->totalreceived; con->totalreceived+=chunk; if (con->totalreceived > dl->sizelimit) { dl->replycode = 413; //413 Payload Too Large Con_Printf("HTTP: request exceeds size limit\n"); return false; //something went wrong. } if (con->file) //we've got a chunk in the buffer { //write it if (VFS_WRITE(con->file, con->buffer, chunk) != chunk) { Con_Printf("Write error whilst downloading %s\nDisk full?\n", dl->localname); return false; } //and move the unparsed chunk to the front. memmove(con->buffer, con->buffer+con->bufferused, con->bufferused-chunk); con->bufferused -= chunk; } if (con->totalreceived == con->contentlength) transfercomplete = true; } if (!ammount || transfercomplete) { //server closed off the connection (or signalled eof/sent enough data). //if (ammount) then we can save off the connection for reuse. if (con->chunksize) dl->status = DL_FAILED; else { #ifdef AVAIL_GZDEC if (con->gzip && con->file) { VFS_CLOSE(con->file); con->file = NULL; } #endif if (con->contentlength != -1 && con->totalreceived != con->contentlength) dl->status = DL_FAILED; //file was truncated else dl->status = (dl->replycode == 200)?DL_FINISHED:DL_FAILED; } return false; } dl->completed = con->totalreceived; break; } return true; } void HTTPDL_Establish(struct dl_download *dl) { #ifdef NPFTE unsigned long _true = true; struct sockaddr_qstorage serveraddr; int addressfamily; int addresssize; #endif struct http_dl_ctx_s *con; qboolean https = false; #ifdef COOKIECOOKIECOOKIE char cookies[8192]; #else char *cookies = ""; #endif char uri[MAX_OSPATH]; char *slash; const char *url = dl->redir; if (!*url) url = dl->url; if (!strnicmp(url, "https://", 8)) { url+=8; https = true; } else if (!strnicmp(url, "http://", 7)) url+=7; con = malloc(sizeof(*con)); memset(con, 0, sizeof(*con)); slash = strchr(url, '/'); if (!slash) { Q_strncpyz(con->server, url, sizeof(con->server)); Q_strncpyz(uri, "/", sizeof(uri)); } else { Q_strncpyz(uri, slash, sizeof(uri)); Q_strncpyz(con->server, url, sizeof(con->server)); con->server[slash-url] = '\0'; } dl->ctx = con; dl->abort = HTTP_Cleanup; dl->status = DL_RESOLVING; #ifndef NPFTE con->sock = INVALID_SOCKET; con->stream = NULL; con->secure = false; #ifndef HAVE_SSL if (!https) #endif { netadr_t adr = {0}; //fixme: support more than one address possibility? //https uses a different default port if (NET_StringToAdr2(con->server, https?443:80, &adr, 1, NULL)) con->sock = TCP_OpenStream(&adr, *dl->redir?dl->redir:dl->url); con->stream = FS_WrapTCPSocket(con->sock, true, con->server); if (!con->stream) { dl->status = DL_FAILED; return; } } #ifdef HAVE_SSL if (https) { //https has an extra ssl/tls layer between tcp and http. con->stream = FS_OpenSSL(con->server, con->stream, false); con->secure = true; } #endif if (!con->stream) { dl->status = DL_FAILED; return; } #else con->secure = false; if (https || !NET_StringToSockaddr(con->server, 80, &serveraddr, &addressfamily, &addresssize)) { dl->status = DL_FAILED; return; } dl->status = DL_QUERY; if ((con->sock = socket (addressfamily, SOCK_STREAM, IPPROTO_TCP)) == -1) { dl->status = DL_FAILED; return; } //don't bother binding. its optional. //FIXME: make the connect call with a non-blocking socket. //FIXME: use a vfsfile_t instead of a direct socket to support https //not yet blocking. if (connect(con->sock, (struct sockaddr *)&serveraddr, addresssize) == -1) { int err = neterrno(); switch(err) { case NET_EACCES: Con_Printf("HTTP: connect(%s): access denied. Check firewall.\n", con->server); break; case NET_ETIMEDOUT: Con_Printf("HTTP: connect(%s): timed out.\n", con->server); break; default: Con_Printf("HTTP: connect(%s): %s", con->server, strerror(neterrno())); break; } dl->status = DL_FAILED; return; } if (ioctlsocket (con->sock, FIONBIO, &_true) == -1) //now make it non blocking. { dl->status = DL_FAILED; return; } #endif #ifdef COOKIECOOKIECOOKIE Cookie_Regurgitate(con->server, con->secure, cookies, sizeof(cookies)); #endif if (dl->postdata) { ExpandBuffer(con, 1024 + strlen(uri) + strlen(con->server) + strlen(cookies) + strlen(dl->postmimetype) + dl->postlen); Q_snprintfz(con->buffer, con->bufferlen, "POST %s HTTP/1.1\r\n" "Host: %s\r\n" /*Cookie:*/ "%s" "Content-Length: %u\r\n" "Content-Type: %s\r\n" "Connection: close\r\n" #ifdef AVAIL_GZDEC "Accept-Encoding: gzip\r\n" #endif "User-Agent: "FULLENGINENAME"\r\n" "\r\n", uri, con->server, cookies, (unsigned int)dl->postlen, dl->postmimetype); con->bufferused = strlen(con->buffer); memcpy(con->buffer + con->bufferused, dl->postdata, dl->postlen); con->bufferused += dl->postlen; } else { ExpandBuffer(con, 512*1024); Q_snprintfz(con->buffer, con->bufferlen, "GET %s HTTP/1.1\r\n" "Host: %s\r\n" /*Cookie:*/ "%s" "Connection: close\r\n" //theoretically, this is not needed. but as our code will basically do it anyway, it might as well be here FIXME: implement connection reuse. #ifdef AVAIL_GZDEC "Accept-Encoding: gzip\r\n" #endif "User-Agent: "FULLENGINENAME"\r\n" "\r\n", uri, con->server, cookies); con->bufferused = strlen(con->buffer); } con->contentlength = -1; } qboolean HTTPDL_Poll(struct dl_download *dl) { /*failed previously*/ if (dl->status == DL_FAILED) return false; if (!dl->ctx) { HTTPDL_Establish(dl); if (dl->status == DL_FAILED) { HTTP_Cleanup(dl); dl->status = DL_FAILED; return false; } } if (dl->ctx) { if (!HTTP_DL_Work(dl)) if (dl->status != DL_FINISHED) dl->status = DL_FAILED; if (dl->status == DL_FAILED) { HTTP_Cleanup(dl); dl->status = DL_FAILED; return false; } if (dl->status == DL_FINISHED) return false; } return true; } /* //decode a base64 byte to a 0-63 value. Cannot cope with =. static unsigned int Base64_DecodeByte(char byt) { if (byt >= 'A' && byt <= 'Z') return (byt-'A') + 0; if (byt >= 'a' && byt <= 'z') return (byt-'a') + 26; if (byt >= '0' && byt <= '9') return (byt-'0') + 52; if (byt == '+') return 62; if (byt == '/') return 63; return -1; } //FIXME: we should be able to skip whitespace. static int Base64_Decode(char *out, int outlen, char **srcout, int *srclenout) { int len = 0; unsigned int result; char *src = *srcout; int srclen = *srclenout; //4 input chars give 3 output chars while(srclen >= 4) { if (len+3 > outlen) { //ran out of space in the output buffer *srcout = src; *srclenout = srclen; return len; } result = Base64_DecodeByte(src[0])<<18; result |= Base64_DecodeByte(src[1])<<12; out[len++] = (result>>16)&0xff; if (src[2] != '=') { result |= Base64_DecodeByte(src[2])<<6; out[len++] = (result>>8)&0xff; if (src[3] != '=') { result |= Base64_DecodeByte(src[3])<<0; out[len++] = (result>>0)&0xff; } } if (result & 0xff000000) return 0; //some kind of invalid char src += 4; srclen -= 4; } //end of string *srcout = src; *srclenout = srclen; //some kind of error if (srclen) { if (srclen != 1 || *src) return 0; } return len; } qboolean DataScheme_Decode(struct dl_download *dl) { char block[8192]; int remaining, blocksize; char mimetype[256]; char baseval[256]; char charsetval[256]; char *url; char *data; char *charset; char *base; //failed previously if (dl->status == DL_FAILED) return false; //data:[][;charset=][;base64], *mimetype = 0; *baseval = 0; *charsetval = 0; url = dl->url; if (!strncmp(url, "data:", 5)) url+=5; //should always match data = strchr(url, ','); if (!data) return false; charset = memchr(url, ';', data-url); if (charset) { base = memchr(charset+1, ';', data-charset); if (base) { if (data-(base+1) >= sizeof(baseval)) return false; memcpy(baseval, base+1, data-(base+1)); baseval[data-(base+1)] = 0; } else base = data; if (base-(charset+1) >= sizeof(charsetval)) return false; memcpy(charsetval, charset+1, base-(charset+1)); charsetval[base-(charset+1)] = 0; if (!strchr(charsetval, '=')) { strcpy(baseval, charsetval); *charsetval = 0; } } else charset = data; if (charset-(url) >= sizeof(charsetval)) return false; memcpy(mimetype, url, charset-(url)); mimetype[charset-(url)] = 0; if (!*mimetype) Q_strncpyz(mimetype, "text/plain", sizeof(mimetype)); if (!*charsetval) Q_strncpyz(charsetval, "charset=US-ASCII", sizeof(charsetval)); if (dl->notifystarted) dl->notifystarted(dl, *mimetype?mimetype:NULL); if (!dl->file) { #ifndef NPFTE if (*dl->localname) { FS_CreatePath(dl->localname, dl->fsroot); dl->file = FS_OpenVFS(dl->localname, "w+b", dl->fsroot); } else dl->file = FS_OpenTemp(); #endif if (!dl->file) { if (*dl->localname) Con_Printf("HTTP: Couldn't open file \"%s\"\n", dl->localname); else Con_Printf("HTTP: Couldn't open temporary file\n"); dl->status = DL_FAILED; return false; } } data++; remaining = strlen(data); while(remaining > 0) { blocksize = Base64_Decode(block, sizeof(block), &data, &remaining); if (!blocksize) { dl->status = DL_FAILED; return false; } VFS_WRITE(dl->file, block, blocksize); } dl->status = DL_FINISHED; return false; } */ qboolean DL_Decide(struct dl_download *dl) { const char *url = dl->redir; if (!*url) url = dl->url; /*if (!strnicmp(url, "data:", 5)) dl->poll = DataScheme_Decode; else*/ if (!strnicmp(url, "http://", 7)) dl->poll = HTTPDL_Poll; else if (!strnicmp(url, "https://", 7)) dl->poll = HTTPDL_Poll; else { dl->status = DL_FAILED; return false; } return true; } #endif /*!defined(NACL)*/ #ifdef MULTITHREAD static unsigned int dlthreads = 0; #define MAXDOWNLOADTHREADS 4 #if defined(LOADERTHREAD) && !defined(NPFTE) static void HTTP_Wake_Think(void *ctx, void *data, size_t a, size_t b) { dlthreads--; HTTP_CL_Think(NULL, NULL); } #endif static int DL_Thread_Work(void *arg) { struct dl_download *dl = arg; while (dl->threadenable) { if (!dl->poll(dl)) { #ifdef NPFTE //the plugin doesn't have a download loop if (dl->notifycomplete) { dl->notifycomplete(dl); dl->notifycomplete = NULL; } if (dl->file) VFS_CLOSE(dl->file); #else if (dl->status != DL_FAILED && dl->status != DL_FINISHED) dl->status = DL_FAILED; #endif break; } } dl->threadenable = false; #if defined(LOADERTHREAD) && !defined(NPFTE) COM_AddWork(WG_MAIN, HTTP_Wake_Think, NULL, NULL, 0, 0); #endif return 0; } /*create a thread to perform the given download to use: call DL_Create (not HTTP_CL_Get!) to get a context, then call this. note that you need to call DL_Close from another thread, NOT IN THE NOTIFY FUNC. the file handle must be safe to write to in threads. */ qboolean DL_CreateThread(struct dl_download *dl, vfsfile_t *file, void (*NotifyFunction)(struct dl_download *dl)) { if (!dl) return false; if (file) dl->file = file; if (NotifyFunction) dl->notifycomplete = NotifyFunction; dl->threadenable = true; #if defined(LOADERTHREAD) && !defined(NPFTE) if (dlthreads < 4) #endif { dl->threadctx = Sys_CreateThread("download", DL_Thread_Work, dl, THREADP_NORMAL, 0); if (!dl->threadctx) return false; dlthreads++; } return true; } #else qboolean DL_CreateThread(struct dl_download *dl, vfsfile_t *file, void (*NotifyFunction)(struct dl_download *dl)) { if (!dl) return false; if (file) dl->file = file; if (NotifyFunction) dl->notifycomplete = NotifyFunction; return false; } #endif /*create a standalone download context*/ struct dl_download *DL_Create(const char *url) { struct dl_download *newdl; newdl = malloc(sizeof(*newdl) + strlen(url)+1); if (!newdl) return NULL; memset(newdl, 0, sizeof(*newdl)); newdl->url = (char*)(newdl+1); strcpy(newdl->url, url); newdl->poll = DL_Decide; newdl->fsroot = FS_GAMEONLY; newdl->sizelimit = 0x80000000u; //some sanity limit. #if !defined(NPFTE) && !defined(SERVERONLY) newdl->qdownload.method = DL_HTTP; #endif if (!newdl->poll(newdl)) { free(newdl); newdl = NULL; } return newdl; } /*destroys an entire download context*/ void DL_Close(struct dl_download *dl) { struct dl_download **link = NULL; #ifndef NPFTE for (link = &activedownloads; *link; link = &(*link)->next) { if (*link == dl) { *link = dl->next; break; } } #endif #if !defined(NPFTE) && !defined(SERVERONLY) if (cls.download == &dl->qdownload) cls.download = NULL; #endif #ifdef MULTITHREAD dl->threadenable = false; if (dl->threadctx) { Sys_WaitOnThread(dl->threadctx); dl->threadctx = NULL; } #endif if (dl->file && dl->file->seekstyle < SS_PIPE) VFS_SEEK(dl->file, 0); if (dl->notifycomplete) dl->notifycomplete(dl); if (dl->abort) dl->abort(dl); if (dl->file) VFS_CLOSE(dl->file); if (dl->postdata) BZ_Free(dl->postdata); free(dl); } #ifndef NPFTE void DL_DeThread(void) { #ifdef MULTITHREAD //if we're about to fork, ensure that any downloads are properly parked so that there's no workers in an unknown state. struct dl_download *dl; for (dl = activedownloads; dl; dl = dl->next) { dl->threadenable = false; if (dl->threadctx) { Sys_WaitOnThread(dl->threadctx); dl->threadctx = NULL; } } #endif } /*updates pending downloads*/ unsigned int HTTP_CL_GetActiveDownloads(void) { struct dl_download *dl; unsigned int count = 0; for (dl = activedownloads; dl; dl = dl->next) count++; return count; } /*create a download context and add it to the list, for lazy people. not threaded*/ struct dl_download *HTTP_CL_Get(const char *url, const char *localfile, void (*NotifyFunction)(struct dl_download *dl)) { struct dl_download *newdl = DL_Create(url); if (!newdl) return newdl; newdl->notifycomplete = NotifyFunction; if (localfile) Q_strncpyz(newdl->localname, localfile, sizeof(newdl->localname)); newdl->next = activedownloads; activedownloads = newdl; #ifndef SERVERONLY if (!cls.download && localfile && !newdl->isquery) { cls.download = &newdl->qdownload; if (*newdl->localname) Q_strncpyz(newdl->qdownload.localname, newdl->localname, sizeof(newdl->qdownload.localname)); else Q_strncpyz(newdl->qdownload.localname, newdl->url, sizeof(newdl->qdownload.localname)); Q_strncpyz(newdl->qdownload.remotename, newdl->url, sizeof(newdl->qdownload.remotename)); newdl->qdownload.starttime = Sys_DoubleTime(); } #endif return newdl; } struct dl_download *HTTP_CL_Put(const char *url, const char *mime, const char *data, size_t datalen, void (*NotifyFunction)(struct dl_download *dl)) { struct dl_download *dl; if (!*mime) return NULL; dl = HTTP_CL_Get(url, NULL, NotifyFunction); if (dl) { Q_strncpyz(dl->postmimetype, mime, sizeof(dl->postmimetype)); dl->postdata = BZ_Malloc(datalen); memcpy(dl->postdata, data, datalen); dl->postlen = datalen; } return dl; } void HTTP_CL_Think(const char **curname, float *curpercent) { struct dl_download *dl = activedownloads; struct dl_download **link = NULL; #ifndef SERVERONLY float currenttime; if (!activedownloads) return; currenttime = Sys_DoubleTime(); #endif link = &activedownloads; while (*link) { dl = *link; #ifdef MULTITHREAD if (dl->threadctx) { if (dl->status == DL_FINISHED || dl->status == DL_FAILED) { Sys_WaitOnThread(dl->threadctx); dl->threadctx = NULL; continue; } } else if (dl->threadenable) { if (dlthreads < MAXDOWNLOADTHREADS) { dl->threadctx = Sys_CreateThread("download", DL_Thread_Work, dl, THREADP_NORMAL, 0); if (dl->threadctx) dlthreads++; else dl->threadenable = false; } } else #endif { if (!dl->poll(dl)) { *link = dl->next; DL_Close(dl); continue; } } link = &dl->next; if (curname && curpercent) { if (*dl->localname) *curname = (const char*)dl->localname; else *curname = (const char*)dl->url; if (dl->status == DL_FINISHED) *curpercent = 100; else if (dl->status != DL_ACTIVE) *curpercent = 0; else if (dl->totalsize <= 0) *curpercent = -1; else *curpercent = dl->completed*100.0f/dl->totalsize; } #ifndef SERVERONLY if (!cls.download && !dl->isquery) #ifdef MULTITHREAD if (!dl->threadenable || dl->threadctx) //don't show pending downloads in preference to active ones. #endif { cls.download = &dl->qdownload; dl->qdownload.method = DL_HTTP; if (*dl->localname) Q_strncpyz(dl->qdownload.localname, dl->localname, sizeof(dl->qdownload.localname)); else Q_strncpyz(dl->qdownload.localname, dl->url, sizeof(dl->qdownload.localname)); Q_strncpyz(dl->qdownload.remotename, dl->url, sizeof(dl->qdownload.remotename)); dl->qdownload.starttime = Sys_DoubleTime(); } if (dl->status == DL_FINISHED) dl->qdownload.percent = 100; else if (dl->status != DL_ACTIVE) dl->qdownload.percent = 0; else if (dl->totalsize <= 0) { dl->qdownload.sizeunknown = true; dl->qdownload.percent = 50; } else dl->qdownload.percent = dl->completed*100.0f/dl->totalsize; dl->qdownload.completedbytes = dl->completed; if (dl->qdownload.ratetime < currenttime) { dl->qdownload.ratetime = currenttime+1; dl->qdownload.rate = (dl->qdownload.completedbytes - dl->qdownload.ratebytes) / 1; dl->qdownload.ratebytes = dl->qdownload.completedbytes; } #endif } } void HTTP_CL_Terminate(void) { struct dl_download *dl = activedownloads; struct dl_download *next = NULL; next = activedownloads; activedownloads = NULL; while (next) { dl = next; next = dl->next; DL_Close(dl); } HTTP_CL_Think(NULL, NULL); #ifdef COOKIECOOKIECOOKIE Cookie_Monster(); #endif } #endif #endif /*WEBCLIENT*/ typedef struct { vfsfile_t funcs; char *data; size_t maxlen; size_t writepos; size_t readpos; void *mutex; int refs; qboolean terminate; //one end has closed, make the other report failures now that its no longer needed. void *ctx; void (*callback) (void *ctx, vfsfile_t *pipe); } vfspipe_t; static qboolean QDECL VFSPIPE_Close(vfsfile_t *f) { int r; vfspipe_t *p = (vfspipe_t*)f; Sys_LockMutex(p->mutex); r = --p->refs; p->terminate = true; Sys_UnlockMutex(p->mutex); if (!r) { free(p->data); Sys_DestroyMutex(p->mutex); free(p); } else if (p->callback) p->callback(p->ctx, f); return true; } static qofs_t QDECL VFSPIPE_GetLen(vfsfile_t *f) { vfspipe_t *p = (vfspipe_t*)f; return p->writepos - p->readpos; } static qofs_t QDECL VFSPIPE_Tell(vfsfile_t *f) { vfspipe_t *p = (vfspipe_t*)f; return p->readpos; } static qboolean QDECL VFSPIPE_Seek(vfsfile_t *f, qofs_t offset) { vfspipe_t *p = (vfspipe_t*)f; p->readpos = offset; return true; } static int QDECL VFSPIPE_ReadBytes(vfsfile_t *f, void *buffer, int len) { vfspipe_t *p = (vfspipe_t*)f; Sys_LockMutex(p->mutex); if (p->readpos > p->writepos) len = 0; if (len > p->writepos - p->readpos) { len = p->writepos - p->readpos; if (!len && p->terminate) { //if we reached eof, we started with two refs and are down to 1 and we're reading, then its the writer side that disconnected. //eof is now fatal rather than 'try again later'. Sys_UnlockMutex(p->mutex); return -1; } } memcpy(buffer, p->data+p->readpos, len); p->readpos += len; Sys_UnlockMutex(p->mutex); return len; } static int QDECL VFSPIPE_WriteBytes(vfsfile_t *f, const void *buffer, int len) { vfspipe_t *p = (vfspipe_t*)f; if (len < 0) return -1; Sys_LockMutex(p->mutex); if (p->terminate) { //if we started with 2 refs, and we're down to one, and we're writing, then its the reader that closed. that means writing is redundant and we should signal an error. Sys_UnlockMutex(p->mutex); return -1; } if (p->readpos > 8192 && !p->funcs.Seek) { //don't grow infinitely if we're reading+writing at the same time //if we're seekable, then we have to buffer the ENTIRE file. memmove(p->data, p->data+p->readpos, p->writepos-p->readpos); p->writepos -= p->readpos; p->readpos = 0; } if (p->writepos + len > p->maxlen) { p->maxlen = p->writepos + len; if (p->maxlen < (p->writepos-p->readpos)*2) //over-allocate a little p->maxlen = (p->writepos-p->readpos)*2; if (p->maxlen > 0x8000000 && p->data) { p->maxlen = max(p->writepos,0x8000000); if (p->maxlen <= p->writepos) { Sys_UnlockMutex(p->mutex); return -1; //try and get the caller to stop } len = min(len, p->maxlen - p->writepos); } p->data = realloc(p->data, p->maxlen); } memcpy(p->data+p->writepos, buffer, len); p->writepos += len; Sys_UnlockMutex(p->mutex); return len; } vfsfile_t *VFS_OpenPipeInternal(int refs, qboolean seekable, void (*callback)(void *ctx, vfsfile_t *file), void *ctx) { vfspipe_t *newf; newf = malloc(sizeof(*newf)); newf->refs = refs; newf->terminate = false; newf->mutex = Sys_CreateMutex(); newf->data = NULL; newf->maxlen = 0; newf->readpos = 0; newf->writepos = 0; newf->funcs.Close = VFSPIPE_Close; newf->funcs.Flush = NULL; newf->funcs.GetLen = VFSPIPE_GetLen; newf->funcs.ReadBytes = VFSPIPE_ReadBytes; newf->funcs.WriteBytes = VFSPIPE_WriteBytes; newf->ctx = ctx; newf->callback = callback; if (seekable) { //if this is set, then we allow changing the readpos at the expense of buffering the ENTIRE file. no more fifo. newf->funcs.Seek = VFSPIPE_Seek; newf->funcs.Tell = VFSPIPE_Tell; newf->funcs.seekstyle = SS_PIPE; } else { //periodically reclaim read data to avoid memory wastage. this means that seeking can't work. newf->funcs.Seek = NULL; newf->funcs.Tell = NULL; newf->funcs.seekstyle = SS_UNSEEKABLE; } return &newf->funcs; } vfsfile_t *VFS_OpenPipeCallback(void (*callback)(void*ctx, vfsfile_t *file), void *ctx) { return VFS_OpenPipeInternal(2, false, callback, ctx); } vfsfile_t *VFSPIPE_Open(int refs, qboolean seekable) { return VFS_OpenPipeInternal(refs, seekable, NULL, NULL); }